Metal-organic frameworks : design and application By MacGillivray L.R. (ed.)
2010 | 363 Pages | ISBN: 0470195568 | PDF | 9 MB
2010 | 363 Pages | ISBN: 0470195568 | PDF | 9 MB
Were you always curious about biology but were afraid to sit through long hours of dense reading? Did you like the subject when you were in high school but had other plans after you graduated? Now you can explore the human genome and analyze DNA without ever leaving your desktop!Bioinformatics For Dummies is packed with valuable information that introduces you to this exciting new discipline. This easy-to-follow guide leads you step by step through every bioinformatics task that can be done over the Internet. Forget long equations, computer-geek gibberish, and installing bulky programs that slow down your computer. You’ll be amazed at all the things you can accomplish just by logging on and following these trusty directions. You get the tools you need to:Analyze all types of sequencesUse all types of databasesWork with DNA and protein sequencesConduct similarity searchesBuild a multiple sequence alignmentEdit and publish alignmentsVisualize protein 3-D structuresConstruct phylogenetic treesThis up-to-date second edition includes newly created and popular databases and Internet programs as well as multiple new genomes. It provides tips for using servers and places to seek resources to find out about what’s going on in the bioinformatics world. Bioinformatics For Dummies will show you how to get the most out of your PC and the right Web tools so you’ll be searching databases and analyzing sequences like a pro! Among their many meaningful uses, metal-organic frameworks, or simply MOFs, hold the promise of expanding the fuel capacity of hydrogen-fueled vehicles with the ability to compress hydrogen molecules into small areas. Building on this technology, MOFs could increase this capacity even further--to the point where fuel-cell-powered cars can one day become a reality. --The first, and definitive, reference on MOF chemistry, Metal-Organic Frameworks looks at the scientific possibilities inherent in these crystalline compounds with an in-depth view of how their chemical properties enable them to maximize surface areas with scaffolds made up of linked rods. Metal-Organic Frameworks covers the essential MOF fundamentals and discusses their key benefits, such as how they can be made with simple and low-cost building units to afford technologically advanced molecular and supramolecular materials. --Metal-Organic Frameworks collects input from leading authorities in MOF chemistry and details important and timely contributions. Comprehensive coverage offers the reader a thorough and reliable view of the groundbreaking discoveries and forward-thinking research defining how far this field has come--and how far it still has to go. Suitable to gain an advanced-level understanding in this area, this book also serves as a valuable teaching tool, making it an ideal addition to the classroom. --Book Jacket. From Hofmann complexes to organic coordination networks / Makoto Fujita -- Insight into the development of metal-organic materials (MOMs) : at zeolite-like metal-organic frameworks (ZMOFs) / Mohamed Eddaoudi and Jarrod F. Eubank -- Topology and interpenetration / Stuart R. Batten -- Highly connected metal-organic frameworks / Peter Hubberstey ... [et al.] -- Surface pore engineering or porous coordination polymers / Sujit K. Ghosh and Susuma Kitagawa -- Rational design of non-centrosymmetric metal-organic frameworks for second-order nonlinear optics / Wenbin Lin and Shuting Wu -- Selective sorption of gases and vapors in metal-organic frameworks / Hyunuk Kim, Hyungphil Chun, and Kimoon Kim -- Hydrogen and methane storage in metal-organic frameworks / David J. Collins, Shengqian Ma, and Hong-Cai Zhou -- Towards mechanochemical synthesis of metal-organic frameworks : from coordination polymers and lattice inclusion compounds to porous materials / Tomislav FrisМЊcМЊicМЃ -- Metal-organic frameworks with photochemical building units / Saikat Dutta, Ivan G. Georgiev, and Leonard R. MacGillivray -- Molecular modeling of adsorption and diffusion in metal-organic frameworks / Randall Q. Snurr ... [et al.]